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NIST Sensor Detects Heartbeat

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Researchers from the National Institute of Standards and Technology (NIST) and the German national metrology institute have used NIST’s miniature atom-based magnetic sensor to successfully track a human heartbeat, confirming the device’s potential for biomedical applications.

The study of the NIST mini-sensors is the first to be performed under conditions resembling a clinical setting, whereas before they were operated mostly in physics laboratories. The new experiments were carried out at the Physikalisch Technische Bundesanstalt (PTB) in Berlin, in a building described as having the world’s best magnetic shielding. The protection is necessary to block the Earth’s magnetic field and other external sources from interfering with the high-precision measurements. PTB has an ongoing program in biomagnetic imaging using human subjects.


NIST’s miniature magnetic sensor is about the size of a sugar cube. The lid has been removed to show the inner square cell, which contains a gas of rubidium atoms. The diagonal bar is an electrical connection to the cell’s heaters, which are powered by the red, black and white electrical wires. The clear optical fiber extending from the middle bottom of the sensor connects to a control box. (Image: S. Knappe, NIST)

The NIST sensor — a tiny container of about 100 billion rubidium atoms in gas form, a low-power infrared laser and optics — measured the heart’s magnetic signature in picoteslas (trillionths of a tesla). The tesla is the unit that defines magnetic field strength. For comparison, the Earth’s magnetic field is a million times stronger (measured in millionths of a tesla) than a heartbeat, and an MRI machine uses fields several million times stronger still (operating at several tesla).

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In the experiments carried out at PTB, the NIST sensor was placed 5 mm above the left chest of a person lying face up on a bed. The sensor successfully detected the weak but regular magnetic pattern of the heartbeat. The same signals were recorded using the “gold standard” for magnetic measurements, a SQUID (superconducting quantum interference device). A comparison of the signals confirmed that the NIST mini-sensor correctly measured the heartbeat and identified many typical signal features. The NIST mini-sensor generates more “noise” (interference) in the signal but has the advantage of operating at room temperature, whereas SQUIDs work best at −269 °C and require more complicated and expensive supporting apparatus.

A spin-off of NIST’s miniature atomic clocks, NIST’s magnetic mini-sensors were first developed in 2004. Recently, they were packaged with fiber optics for detecting the light signals that register magnetic field strength. In addition, the control system has been reduced in size, so the entire apparatus can be transported easily to other laboratories.

The new results suggest that NIST mini-sensors could be used to make magnetocardiograms, a supplement or alternative to electrocardiograms. The study also demonstrated for the first time that atomic magnetometers can offer sensing stability lasting tens of seconds, as needed for an emerging technique called magnetorelaxometry (MRX), which measures the magnetization decay of magnetic nanoparticles. MRX is used to localize, quantify and image magnetic nanoparticles inserted into biological tissue for medical applications such as targeted drug treatments. Further tests of the NIST sensors are planned at PTB.

For more information, visit: www.nist.gov  



Published: October 2010
Glossary
metrology
Metrology is the science and practice of measurement. It encompasses the theoretical and practical aspects of measurement, including the development of measurement standards, techniques, and instruments, as well as the application of measurement principles in various fields. The primary objectives of metrology are to ensure accuracy, reliability, and consistency in measurements and to establish traceability to recognized standards. Metrology plays a crucial role in science, industry,...
tesla
The magnetic flux density given by a magnetic flux of one weber per square meter. (T).
Americasatom-based magnetic sensoratomic magnetometerBasic Sciencebiomagnetic imagingbiomedicineBiophotonicsEuropeGermanyImaginglow-power infrared lasermagnetic nanoparticlesmagnetization decaymagnetocardiogrammagnetorelaxometrymetrologyNISTPhysikalisch Technische Bundesanstalt (PTB)picoteslaResearch & TechnologyrubidiumSensors & DetectorsSQUIDsuperconducting quantum interference devicetargeted drug treatmentTeslaLasers

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